Warehouses
Backup and energy storage for facilities that rely on uninterrupted charging, lighting, controls, and access systems.
Warehouse backup and energy storage
Tested Second-Life EV Batteries for Warehouse Backup
Reduce energy storage costs with safety-tested battery systems.
- Cost focus
- Second-life battery supply for lower capital outlay
- Documented
- SoH, traceability, and safety records included
- Industrial
- Built for backup and storage use cases
Target customers
Built for facilities where power interruptions carry operational cost
RenewGrids works with warehouse and industrial teams that need practical backup power, lower storage cost, and documentation clear enough for safety and finance review.
Industrial Sites
Battery systems for plants and service yards that need lower-cost resilience without opaque equipment risk.
Fleet Depots
Support for depots balancing EV charging loads, backup requirements, and capital discipline.
Problems
Storage projects stall when cost and risk are not addressed together
Warehouse operators need resilience, but conventional new systems can be expensive and hard to justify without transparent data.
High system cost
New lithium-ion storage can make practical backup projects difficult to approve, especially across multiple sites.
Outage exposure
Warehouse operations lose throughput when chargers, gates, safety systems, or automation cannot ride through interruptions.
Underused energy assets
Facilities often have flexible loads but limited storage options that match budget, risk, and operating needs.
Solution
Second-life EV batteries prepared for stationary energy storage
RenewGrids extends the useful life of EV lithium-ion batteries by testing, refurbishing, documenting, and supplying them for warehouse backup and energy storage applications.
Trust
Safety-tested supply with records customers can review
RenewGrids focuses on documented condition, traceable sourcing, and safety validation before batteries are supplied for use.
State of Health testing
Capacity, voltage behavior, internal resistance, and degradation indicators are checked before release.
Traceable supply
Battery origin, intake condition, refurbishment actions, and test outcomes are recorded for review.
Safety-first documentation
Every project is backed by documented checks, risk controls, and site-specific deployment guidance.
Process
A five-step path from EV battery source to storage deployment
The process is designed to make second-life supply practical for industrial buyers: controlled intake, testing, documentation, and project-ready delivery.
- 1
Source traceable EV batteries
Packs are selected from known EV supply streams with chain-of-custody records and pack history reviewed before intake.
- 2
Inspect and assess condition
Each pack is visually inspected, electrically assessed, and screened for condition risks before refurbishment work begins.
- 3
Refurbish and test
Modules are configured for stationary storage use, then tested against defined performance and safety acceptance criteria.
- 4
Provide documentation
Customers receive State of Health data, safety checks, traceability records, and deployment notes for operational review.
- 5
Supply for energy storage use
RenewGrids supplies tested systems for backup power, peak support, and warehouse resilience projects.